Cracow, Poland

Faculty of Electrical Engineering, Automatics, Computer Science and Biomedical Engineering

Wydział Elektrotechniki, Automatyki, Informatyki i Inżynierii Biomedycznej

Subject area: engineering and engineering trades
University website: www.agh.edu.pl/en/
  • Description:

  • pl
The Faculty of Electrical Engineering, Automatics, Computer Science and Biomedical Engineering AGH-UST is one of the biggest faculties in Poland. It occupies a high rank among other such educational units both in Poland and abroad. Initially, the history of the Faculty was connected with the Faculty of Electromechanics (established in 1946), which in 1952 was converted into two faculties: the Faculty of Electrification of Mining and Metallurgy, and the Faculty of Mechanization of Mining and Metallurgy. The scientific potential of the Faculty can be proved by its right to confer the scientific degree of doctor and doctor habilitatus in Automatics and Robotics and Electronics, Electrical Engineering, Computer Science as well as the PhD in Biocybernetics and Biomedical Engineering. The scientific and research activity at the Faculty concentrates on modern techniques and computer science, bioengineering, robotics, environmentally-oriented production, transport and use of electrical energy, modern electrical equipment and metrology.
Biomedical Engineering
Biomedical engineering (BME) is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic). This field seeks to close the gap between engineering and medicine, combining the design and problem solving skills of engineering with medical biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. Biomedical engineering has only recently emerged as its own study, as compared to many other engineering fields. Such an evolution is common as a new field transitions from being an interdisciplinary specialization among already-established fields, to being considered a field in itself. Much of the work in biomedical engineering consists of research and development, spanning a broad array of subfields (see below). Prominent biomedical engineering applications include the development of biocompatible prostheses, various diagnostic and therapeutic medical devices ranging from clinical equipment to micro-implants, common imaging equipment such as MRIs and EKG/ECGs, regenerative tissue growth, pharmaceutical drugs and therapeutic biologicals.
Computer
A computer is a device that can be instructed to carry out sequences of arithmetic or logical operations automatically via computer programming. Modern computers have the ability to follow generalized sets of operations, called programs. These programs enable computers to perform an extremely wide range of tasks.
Computer Science
Computer science is the study of the theory, experimentation, and engineering that form the basis for the design and use of computers. It is the scientific and practical approach to computation and its applications and the systematic study of the feasibility, structure, expression, and mechanization of the methodical procedures (or algorithms) that underlie the acquisition, representation, processing, storage, communication of, and access to, information. An alternate, more succinct definition of computer science is the study of automating algorithmic processes that scale. A computer scientist specializes in the theory of computation and the design of computational systems. See glossary of computer science.
Electrical Engineering
Electrical engineering is a professional engineering discipline that generally deals with the study and application of electricity, electronics, and electromagnetism. This field first became an identifiable occupation in the later half of the 19th century after commercialization of the electric telegraph, the telephone, and electric power distribution and use. Subsequently, broadcasting and recording media made electronics part of daily life. The invention of the transistor, and later the integrated circuit, brought down the cost of electronics to the point they can be used in almost any household object.
Engineering
Engineering is the creative application of science, mathematical methods, and empirical evidence to the innovation, design, construction, operation and maintenance of structures, machines, materials, devices, systems, processes, and organizations. The discipline of engineering encompasses a broad range of more specialized fields of engineering, each with a more specific emphasis on particular areas of applied mathematics, applied science, and types of application. See glossary of engineering.
Faculty
Faculty may refer to:
Science
Science (from Latin scientia, meaning "knowledge") is a systematic enterprise that builds and organizes knowledge in the form of testable explanations and predictions about the universe.
Computer Science
Computer science research is different from these more traditional disciplines. Philosophically it differs from the physical sciences because it seeks not to discover, explain, or exploit the natural world, but instead to study the properties of machines of human creation. In this it is analogous to mathematics, and indeed the "science" part of computer science is, for the most part mathematical in spirit. But an inevitable aspect of computer science is the creation of computer programs: objects that, though intangible, are subject to commercial exchange.
Dennis Ritchie (1984) Reflections on Software Research.
Science
The men in the laboratory... cannot be said to observe the actual objects of their curiosity at all. ...The sense data on which the propositions of modern science rest are, for the most part, little photographic spots and blurs, or inky curved lines on paper. ... What is directly observable is only a sign of the "physical fact"; it requires interpretation to yield scientific propositions.
Susanne Langer, Philosophy in a New Key (1942)
Computer Science
Any problem in computer science can be solved with another level of indirection.
David Wheeler (Attributed in: Butler Lampson. Principles for Computer System Design. Turing Award Lecture. February 17, 1993.) Wheeler is said to have added the appendage "Except for the problem of too many layers of indirection."

Contact:

30 Mickiewicza Av.
30-059 Krakow
Centre for International Students

Regular studies
P: +48 12 617 50 92
P: +48 12 617 46 15
F: +48 12 617 52 39
E: international.students@agh.edu.pl

Exchange programmes
P: +48 12 617 52 37
P: +48 12 617 52 38
F: +48 12 617 52 39
E: exchange@agh.edu.pl
Privacy Policy